"Growth Enhancement of Dunaliella salina by Microbubble Induced Airlift Loop Bioreactor (ALB)—The Relation between Mass Transfer and Growth Rate"
written by Kezhen Ying, Daniel J. Gilmour, Yuzhen Shi, William B. Zimmerman,
published by Journal of Biomaterials and Nanobiotechnology, Vol.4 No.2A, 2013
has been cited by the following article(s):
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[2] Factors affecting production of beta-carotene from Dunaliella salina microalgae
[3] Occurrence of Euryhaline Dunaliella salinain Andaman & Nicobar Islands: Assessment and Optimization of its Total Carotenoid by Orthogonal Array Design
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[6] Bioflocculation of Two Species of Microalgae by Exopolysaccharide of Bacillus subtilis.
[7] Enhancement of Dunaliella salina growth by using wavelength shifting dyes
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[11] A novel chemical–biochemical process technology for full exploitation of chicken fat for animal nutrition
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[13] 光生物反应器内CO2传输与微藻固碳性能强化
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[14] Proximate Analysis, Lipid Profile, Microbiological and Pigment Characterization of Chlorella Dry Powder Produced in a 20 L Agitated Photobioreactor
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[15] Microbubble mediated sequential saccharification, inactivation, and aerobic fermentation with in situ selective product removal
[16] Modelado de la Producción de Biomasa Microalgal en un Fotobiorreactor de Burbujeo Anular y Configuración Variable
[17] Growth of Chlorella vulgaris and nutrient removal in the wastewater in response to intermittent carbon dioxide
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[18] Improving microalgal growth with reduced diameters of aeration bubbles and enhanced mass transfer of solution in an oscillating flow field
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[19] Influence of Surface Wettability on Microbubble Formation
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[20] In-situ disinfection and a new downstream processing scheme from algal harvesting to lipid extraction using ozone-rich microbubbles for biofuel production
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[21] Algal Research
[22] Improving microalgal growth with small bubbles in a raceway pond with swing gas aerators
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[23] Development of an optical microscopy system for automated bubble cloud analysis
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[24] Developing a water-circulating column photobioreactor for microalgal growth with low energy consumption
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[25] Periodic CO2 Dosing Strategy for Dunaliella salina Batch Culture
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[26] Bubble Reactions to Improve Sustainability
[27] Minimising microbubble size through oscillation frequency control
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[28] Airlift bioreactor for biological applications with microbubble mediated transport processes
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[29] 나노기포 수소수에서 배양한 Arthrospira platensis 특성 확인
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[30] Carotenoid Production by Bacteria, Microalgae, and Fungi
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[31] Characterization of Arthrospira platensis Cultured in Nano-bubble Hydrogen Water
[33] Effect of Nano Bubble Oxygen and Hydrogen Water on Microalgae
[34] Fluidic oscillator with bi-stable turn-down amplifier
[35] Enhanced Mass Transfer in Microbubble Driven Airlift Bioreactor for Microalgal Culture
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